Accidental Discovery Could Save Bees From Their Greatest Threat

The Varroa Mite (v. Destructor) is one of the greatest threats to honeybees on the planet. It was introduced into the UK in 1992, it is not indigenous, it was introduced to the UK on imported packages of bees.

Current treatments for varroa mite only kill the majority of mites in a beehive, no regime or treatment is available that kills all mites. Because they breed prolifically they return very quickly. It is too late to stop the varroa mite, once introduced all you can do is manage the threat.

In recent years a major national beekeeper organisation, and government bodies have advocated the banning of imported bees. Unfortunately, this appears to a paper exercise only, as the importation of non-native honeybees is as prolific as ever and will remain so until public opinion forces the issue!

BeekeeperTomTogether we’ll fundamentally change the world of bees in the UK for the better.

A team of German scientists discovered a new chemical compound that could save honey bees from Varroa mites — parasites that suck blood and harm colonies.

INVASION OF THE VARROA MITES

Global bee populations are on the decline, thanks to threats like fungicides and neonicotinoid pesticides. But honey bees in particular are plagued by another menace — a type of parasite called the Varroa mite. These mites attach themselves to honey bees after making their way into a colony and proceed to suck the bees’ blood. This not only shortens the bees’ lifespan, but also passes along diseases.

The discovery is a welcome one, because Varroa mites are becoming resistant to previously effective chemical treatments. In their research, published to the journal Scientific Reports, the team goes on to explain that “no new active compounds have been registered for more than 25 years” that effectively kill the mites.

The researchers initially tested a sugar solution that they fed to the bees, and was transferred to the mites through the bees’ blood. But the team observed that the mites in a control group — treated with a solution that wasn’t meant to be lethal — had also died. Additional testing led to the discovery that lithium chloride, which was present in the tested sugar solution, was the actual culprit behind the mites’ demise. Only 25 millimolar of the chemical was enough to wipe out 90 to 100 percent of Varroa mites between 24 and 72 hours.

“The results presented here already indicate that [lithium chloride] has potential as an effective and easy-to-apply treatment for artificial and natural swarms and particularly for the huge number of package bees used for pollination in the United States,” the researchers wrote in the paper.

A FIRST STEP

The lithium chloride can be administered through feeding, won’t accumulate in beeswax, isn’t harmful to mammals, and is relatively inexpensive to acquire.

That said, more research is necessary to devise a means of introducing the compound in full-sized colonies to ensure all bees get the amount of lithium chloride needed to be effective. There’s also the matter of conducting studies on free-flying colonies to test long-term effects of the lithium chloride on adult bees, and whether the compound will affect their honey.

Bees, of course, are not critical for pollination, but also have financial benefits. The University of Hohenheim scientists estimate bees contribute between $235 billion and $285 billion annually to food production.

Failing to address Varroa mite invasions would result in the loss of bee colonies around the world, and increase the cost of bee management, pollination services, and crop production. Though mitigating bee decline is a challenging task, protecting them against the Varroa mite threat is a significant first step, and necessary one.